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Polyelectrolyte‐Mediated Modulation of Spatial Internal Stresses of Hydrogels for Complex 3D Actuators

Jinghua Duan, Wenxin Fan, Zihan Xu, Lu Cui, Ziyou Wang, Zhihong Nie, Kunyan Sui

2024Angewandte Chemie International Edition15 citationsDOIOpen Access PDF

Abstract

Hydrogel actuators with complex 3D initial shapes show numerous important applications, but it remains challenging to fabricate such actuators. This article describes a polyelectrolyte-based strategy for modulating small-scale internal stresses within hydrogels to construct complex actuators with tailored 3D initial shapes. Introducing polyelectrolytes into precursor solutions significantly enhances the volume shrinkage of hydrogel networks during polymerization, allowing us to modulate internal stresses. Photopolymerization of these polyelectrolyte-containing solutions through a mask produces mechanically strong hydrogel sheets with large patterned internal stresses. Consequently, these hydrogel sheets attain complex 3D initial shapes at equilibrium, in contrast to the planar initial configuration of 2D actuators. We demonstrate that these 3D actuators can reversibly transform into other 3D shapes (i.e., 3D-to-3D shape transformations) in response to external stimuli. Additionally, we develop a predictive model based on the Flory-Rehner theory to analyze the polyelectrolyte-mediated shrinking behaviors of hydrogel networks during polymerization, allowing precise modulation of shrinkage and internal stress. This polyelectrolyte-boosted shrinking mechanism paves a route to the fabrication of high-performance 3D hydrogel actuators.

Topics & Concepts

PolyelectrolyteSelf-healing hydrogelsActuatorShrinkageMaterials sciencePolymerizationPlanarFabricationNanotechnologyComposite materialPolymer chemistryComputer sciencePolymerArtificial intelligenceComputer graphics (images)PathologyMedicineAlternative medicineAdvanced Materials and MechanicsHydrogels: synthesis, properties, applicationsAdvanced Sensor and Energy Harvesting Materials